Improving Visual Question Answering by Leveraging Depth and Adapting Explainability

Abstract: To produce smooth human-robot interactions, it is important for robots to be able to answer users’ questions accurately and provide a suitable explanation for why they arrive to the answer they provide. However, in the wild, the user may ask the robot questions relating to aspects of the scene that the robot is unfamiliar with and hence be unable to answer correctly all of the time. In order to gain trust in the robot and resolve failure cases where an incorrect answer is provided, we propose a method that uses Grad-CAM explainability on RGB-D data. Depth is a critical component in producing more intelligent robots that can respond correctly most of the time as some questions might rely on spatial relations within the scene, for which 2D RGB data alone would be insufficient. To our knowledge, this work is the first of its kind to leverage depth and an explainability module to produce an explainable Visual Question Answering (VQA) system. Furthermore, we introduce a new dataset for the task of VQA on RGB-D data, VQA-SUNRGBD. We evaluate our explainability method against Grad-CAM on RGB data and find that ours produces better visual explanations. When we compare our proposed model on RGB-D data against the baseline VQN network on RGB data alone, we show that ours outperforms, particularly in questions relating to depth such as asking about the proximity of objects and relative positions of objects to one another.